rm(list=setdiff(ls(), "twd")) 
options(warn=-1)
library(fixest);library(AER);library(stringr);library(knitr)

data<-readRDS(paste(twd,"data/made_data/vreg_wgeos_race.rds",sep=""))


## In person 20
data$in_person_primary_20<-ifelse(data$voting_method_200303 == "P",1,0)
## Abs early 20
data$abs_early_primary_20<-ifelse(data$voting_method_200303 %in% c("A","E"),1,0)
## In person 18
data$in_person_general_18<-ifelse(data$voting_method_181106 == "P",1,0)
## Abs early 18
data$abs_early_general_18<-ifelse(data$voting_method_181106 %in% c("A","E"),1,0)
## Take First Difference
data$diff_in_person<-data$in_person_primary_20-data$in_person_general_18
data$diff_abs_early<-data$abs_early_primary_20-data$abs_early_general_18
### get the minimum of the distance to a consolidated (including super sites)
data$distance_realized_min<-apply(cbind(data$distance_realized,data$distancegov1,data$distancegov2),1,min,na.rm=T)
## Difference between assigned and realized distances (in logs and levels)
data$ln_dist_change<-ifelse(data$moved==1,log(data$distance_realized_min)-log(data$distance_assigned),0)
data$lev_dist_change<-ifelse(data$moved==1,data$distance_realized_min-data$distance_assigned,0)
### Difference between assigned and realized size # of assigned voters (in logs and levels)
data$ln_diff_N<-log(data$realized_N)-log(data$assigned_N)
data$lev_diff_N<-data$realized_N-data$assigned_N

#### Create differences in turnout for all previous elections and run regression ######

## 18-18b

data$in_person_primary_18<-ifelse(data$voting_method_180802== "P",1,0)
data$abs_early_primary_18<-ifelse(data$voting_method_180802 %in% c("A","E"),1,0)

data$diff_in_person_18_18<-data$in_person_general_18-data$in_person_primary_18
data$diff_abs_early_18_18<-data$abs_early_general_18-data$abs_early_primary_18

## 18-16

data$in_person_general_16<-ifelse(data$voting_method_161108== "P",1,0)
data$abs_early_general_16<-ifelse(data$voting_method_161108 %in% c("A","E"),1,0)

data$diff_in_person_18_16<-data$in_person_primary_18-data$in_person_general_16
data$diff_abs_early_18_16<-data$abs_early_primary_18-data$abs_early_general_16

## 16-16a

data$in_person_primary_16a<-ifelse(data$voting_method_160804== "P",1,0)
data$abs_early_primary_16a<-ifelse(data$voting_method_160804 %in% c("A","E"),1,0)

data$diff_in_person_16_16a<-data$in_person_general_16-data$in_person_primary_16a
data$diff_abs_early_16_16a<-data$abs_early_general_16-data$abs_early_primary_16a

## 16a-16b

data$in_person_primary_16b<-ifelse(data$voting_method_160301== "P",1,0)
data$abs_early_primary_16b<-ifelse(data$voting_method_160301 %in% c("A","E"),1,0)


data$diff_in_person_16_16b<-data$in_person_primary_16a-data$in_person_primary_16b
data$diff_abs_early_16_16b<-data$in_person_primary_16a-data$abs_early_primary_16b

## 16b-14

data$in_person_general_14<-ifelse(data$voting_method_141104== "P",1,0)
data$abs_early_general_14<-ifelse(data$voting_method_141104 %in% c("A","E"),1,0)

data$diff_in_person_16_14<-data$in_person_primary_16b-data$in_person_general_14
data$diff_abs_early_16_14<-data$in_person_primary_16b-data$abs_early_general_14

## 14-14a

data$in_person_primary_14<-ifelse(data$voting_method_140807== "P",1,0)
data$abs_early_primary_14<-ifelse(data$voting_method_140807 %in% c("A","E"),1,0)

data$diff_in_person_14_14<-data$in_person_general_14 - data$in_person_primary_14
data$diff_abs_early_14_14<-data$abs_early_general_14 - data$abs_early_primary_14

## 14a-12

data$in_person_general_12<-ifelse(data$voting_method_121106== "P",1,0)
data$abs_early_general_12<-ifelse(data$voting_method_121106 %in% c("A","E"),1,0)

data$diff_in_person_14_12<-data$in_person_primary_14 - data$in_person_general_12
data$diff_abs_early_14_12<-data$abs_early_primary_14 - data$abs_early_general_12




summary(dam_avg2<-feols(diff_in_person~moved+consolidated+I((dist_damage_avg/1000))+I((dist_damage_avg/1000)^2)+I((dist_damage_avg/1000)^3)+
                          +I((dist_power_avg/1000))+I((dist_power_avg/1000)^2)+I((dist_power_avg/1000)^3),data=data,cluster~polling_place_text_name))
summary(dam_avg3<-feols(diff_in_person~moved+consolidated+ln_dist_change+ln_diff_N+I((dist_damage_avg/1000))+I((dist_damage_avg/1000)^2)+I((dist_damage_avg/1000)^3)+
                          +I((dist_power_avg/1000))+I((dist_power_avg/1000)^2)+I((dist_power_avg/1000)^3),data=data,cluster~polling_place_text_name))
summary(dam_avg4<-feols(diff_in_person~moved+consolidated+I((dist_damage_avg/1000))+I((dist_damage_avg/1000)^2)+I((dist_damage_avg/1000)^3)+
                          +I((dist_power_avg/1000))+I((dist_power_avg/1000)^2)+I((dist_power_avg/1000)^3)+diff_abs_early,data=data,cluster~polling_place_text_name))
summary(dam_avg5<-feols(diff_in_person~moved+consolidated+ln_dist_change+ln_diff_N+I((dist_damage_avg/1000))+I((dist_damage_avg/1000)^2)+I((dist_damage_avg/1000)^3)+
                          +I((dist_power_avg/1000))+I((dist_power_avg/1000)^2)+I((dist_power_avg/1000)^3)+diff_abs_early,data=data,cluster~polling_place_text_name))
summary(dam_avg7<-feols(diff_abs_early~moved+consolidated+I((dist_damage_avg/1000))+I((dist_damage_avg/1000)^2)+I((dist_damage_avg/1000)^3)+
                          +I((dist_power_avg/1000))+I((dist_power_avg/1000)^2)+I((dist_power_avg/1000)^3),data=data,cluster~polling_place_text_name))
summary(dam_avg8<-feols(diff_abs_early~moved+consolidated+ln_dist_change+ln_diff_N+I((dist_damage_avg/1000))+I((dist_damage_avg/1000)^2)+I((dist_damage_avg/1000)^3)+
                          +I((dist_power_avg/1000))+I((dist_power_avg/1000)^2)+I((dist_power_avg/1000)^3),data=data,cluster~polling_place_text_name))

log_print(
  esttex(list(dam_avg2,dam_avg3,dam_avg4,dam_avg5,dam_avg7,dam_avg8), ci=.95,
       coefstat = "confint",signif.code = NA, keep = c("moved","consolidated","ln_dist_change","ln_diff_N"),
       fitstat = c("n")
  )
)
